Investigation of large-scale coherence in a turbulent boundary layer using two-point correlations
Investigation of large-scale coherence in a turbulent boundary layer using two-point correlations
Stereoscopic particle image velocimetry (PIV) measurements are made in streamwise–spanwise and inclined cross-stream planes (inclined at $45^\circ$ and $135^\circ$ to the principal flow direction) of a turbulent boundary layer at moderate Reynolds number ($\hbox{\it Re}_\tau\,{\sim} 1100$). Two-point spatial velocity correlations computed using the PIV data reveal results that are consistent with an earlier study in which packets of hairpin vortices were identified by a feature-detection algorithm in the log region, but not in the outer wake region. Both streamwise–streamwise ($R_{\hbox{\scriptsize\it uu}}$) and streamwise–wall-normal ($R_{uw}$) correlations are significant for streamwise displacements of more than 1500 wall units. Zero crossing data for the streamwise fluctuating component $u$ reveal that streamwise strips between zero crossings of 1500 wall units or longer occur more frequently for negative $u$ than positive $u$, suggesting that long streamwise correlations in $R_{\hbox{\scriptsize\it uu}}$ are dominated by slower streamwise structures. Additional analysis of $R_{ww}$ correlations suggests that the long streamwise slow-moving regions contain discrete zones of strong upwash over extended streamwise distances, as might occur within packets of angled hairpin vortices. At a wall-normal location outside of the log region ($z/\delta \,{=}\, 0.5$), the correlations are shorter in the streamwise direction and broader in the spanwise direction. Correlations in the inclined cross-stream plane data reveal good agreement with the streamwise–spanwise plane. $R_{\hbox{\scriptsize\it uu}}$ in the $45^\circ$ plane is more elongated along the in-plane wall-normal direction than in the $135^\circ$ plane, which is consistent with the presence of hairpin packets with a low-speed region lifting away from the wall.
57-80
Ganapathisubramani, B.
5e69099f-2f39-4fdd-8a85-3ac906827052
Hutchins, N.
28046228-1b0a-45ab-97ff-dfec82afe47d
Hambleton, W.
47831c20-8047-4b9a-a763-cd6742fdf0d4
Longmire, I.
e65a7951-933c-4cc4-97bc-8e16932ae165
Marusic, I.
59f585da-d4ab-4dbf-8a74-421f5fb90e6a
9 February 2005
Ganapathisubramani, B.
5e69099f-2f39-4fdd-8a85-3ac906827052
Hutchins, N.
28046228-1b0a-45ab-97ff-dfec82afe47d
Hambleton, W.
47831c20-8047-4b9a-a763-cd6742fdf0d4
Longmire, I.
e65a7951-933c-4cc4-97bc-8e16932ae165
Marusic, I.
59f585da-d4ab-4dbf-8a74-421f5fb90e6a
Ganapathisubramani, B., Hutchins, N., Hambleton, W., Longmire, I. and Marusic, I.
(2005)
Investigation of large-scale coherence in a turbulent boundary layer using two-point correlations.
Journal of Fluid Mechanics, 524, .
(doi:10.1017/S0022112004002277).
Abstract
Stereoscopic particle image velocimetry (PIV) measurements are made in streamwise–spanwise and inclined cross-stream planes (inclined at $45^\circ$ and $135^\circ$ to the principal flow direction) of a turbulent boundary layer at moderate Reynolds number ($\hbox{\it Re}_\tau\,{\sim} 1100$). Two-point spatial velocity correlations computed using the PIV data reveal results that are consistent with an earlier study in which packets of hairpin vortices were identified by a feature-detection algorithm in the log region, but not in the outer wake region. Both streamwise–streamwise ($R_{\hbox{\scriptsize\it uu}}$) and streamwise–wall-normal ($R_{uw}$) correlations are significant for streamwise displacements of more than 1500 wall units. Zero crossing data for the streamwise fluctuating component $u$ reveal that streamwise strips between zero crossings of 1500 wall units or longer occur more frequently for negative $u$ than positive $u$, suggesting that long streamwise correlations in $R_{\hbox{\scriptsize\it uu}}$ are dominated by slower streamwise structures. Additional analysis of $R_{ww}$ correlations suggests that the long streamwise slow-moving regions contain discrete zones of strong upwash over extended streamwise distances, as might occur within packets of angled hairpin vortices. At a wall-normal location outside of the log region ($z/\delta \,{=}\, 0.5$), the correlations are shorter in the streamwise direction and broader in the spanwise direction. Correlations in the inclined cross-stream plane data reveal good agreement with the streamwise–spanwise plane. $R_{\hbox{\scriptsize\it uu}}$ in the $45^\circ$ plane is more elongated along the in-plane wall-normal direction than in the $135^\circ$ plane, which is consistent with the presence of hairpin packets with a low-speed region lifting away from the wall.
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Published date: 9 February 2005
Organisations:
Aerodynamics & Flight Mechanics
Identifiers
Local EPrints ID: 187401
URI: http://eprints.soton.ac.uk/id/eprint/187401
ISSN: 0022-1120
PURE UUID: 11ab41c2-1534-42f4-8c57-a1b2ae7b7681
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Date deposited: 01 Jun 2011 10:12
Last modified: 15 Mar 2024 03:37
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Author:
N. Hutchins
Author:
W. Hambleton
Author:
I. Longmire
Author:
I. Marusic
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